ABB REF615 ANSI 5.0 FP1, Product Manual

Page 1: ... PRODUCT GUIDE REF615 ANSI 5 0 FP1 Feeder protection and control ...

Page 2: ...ring 27 14 Trip circuit supervision 28 15 Self supervision 28 16 Fuse failure supervision 28 17 Current circuit supervision 28 18 Access control 28 19 Inputs and outputs 30 20 Station communication 35 20 Technical data 65 21 Local HMI 66 22 Mounting methods 66 23 Relay case and plug in unit 66 24 Selection and ordering data 67 25 Accessories and ordering data 68 26 Tools 69 27 Cyber security 70 28...

Page 3: ... solidly grounded networks Once the standard configura tion relay has been given the application specific settings it can directly be put into service The 615 series relays support a range of communi cation protocols including IEC 61850 with Edition 2 support process bus according to IEC 61850 9 2 LE Modbus and DNP3 2 Standard configurations REF615 is available in five alternative standard configu...

Page 4: ...1 Available with Harmonic based earth fault option 2 Available with Reclosing option 3 Available with Arc Flash Detection AFD option 4 Available with RTD option 3 52 AFD 33 AFD 13 AFD 23 51N 1 50P 2 46 2 46 1 50G 3 50 BF 1 50N BF 1 51NHA1 Load Prof 50G 1 INR 1 HIZ 1 384 Figure 1 Functionality overview for standard configuration D ...

Page 5: ...5 Available with Reclosing option 6 Available with RTD option 3 52 AFD 34 AFD 14 AFD 24 3 Υ or Δ 51N 1 21YN 11 21YN 21 67 51P 1 67 51P 2 67 50P 1 50 BF 1 67 51N 1 67 51N 2 21YN 31 50P 3 REF615 V5 0 FP1 ANSI Func Appl F 46 1 32N 12 67NIEF HIZ 32N 32 32N 22 51NHA3 67 50N 1 46 2 46PD 49F 1 59G 27 1 27 2 27 3 47 1 47U 1 59N 2 59N 1 INR 1 59 3 59 2 59 1 3 386 60 1 Figure 2 Functionality overview for st...

Page 6: ...tion 9 Available with interconnection option 3 52 AFD 34 AFD 14 AFD 24 Va Vb Vc 21YN 11 21YN 21 21YN 31 50P 3 REF615 V5 0 FP1 ANSI Func Appl L 46 1 32N 12 67NIEF HIZ 32N 32 32N 22 51NHA3 46 2 46PD 49F 1 27 1 27 2 27 3 47 1 47U 2 59N 2 59N 1 59 3 59 2 59 1 386 60 1 50G 1 51P 2 50P 1 50P 2 50 BF 1 67 51P 1 67 51P 2 67 50P 1 51N 1 67 51N 1 67 51N 2 67 50N 1 INR 1 67 50P 2 50N 3 50N 2 50N 1 50G 2 50G ...

Page 7: ...nterconnection option 3 52 AFD 34 AFD 14 AFD 24 3 Υ or Δ 21YN 11 21YN 21 21YN 31 50P 3 REF615 V5 0 FP1 ANSI Func Appl N 46 1 32N 12 67NIEF HIZ 32N 32 32N 22 51NHA3 46 2 46PD 49F 1 59G 27 1 27 2 27 3 47 1 47U 2 59N 2 59N 1 59 3 59 2 59 1 3 386 60 1 50G 1 51P 2 50P 1 50P 2 50 BF 1 67 51P 1 67 51P 2 67 50P 1 51N 1 67 51N 1 67 51N 2 67 50N 1 INR 1 67 50P 2 50N 3 50N 2 50N 1 50G 2 50G 3 67 50N 2 81 1 4...

Page 8: ...ble with Reclosing option 3 52 AFD 32 AFD 12 AFD 22 3 Υ or Δ 50N 1 50BF 2 51N 1 46 2 50N 2 50N 3 50G 2 50G 3 67 50P 1 67 50P 2 50 BF 1 67 50N 2 67 50N 1 INR 1 51P 1 50P 1 50P 3 REF615 V5 0 FP1 ANSI Func Appl P 50P 2 46 1 59N 1 52 3 25 27 2 59 2 47 2 59N 2 60 2 27R 2 793 21FL 11 27 1 59 1 47 1 27R 1 60 1 Figure 5 Functionality overview for standard configuration P ...

Page 9: ...rent protection low stage PHLPTOC 51P 1 2 19 2 1 Three phase non directional overcurrent protection high stage PHHPTOC 50P 2 1 19 1 2 2 Three phase non directional overcurrent protection instantaneous stage PHIPTOC 50P 3 1 1 1 1 1 Three phase directional overcurrent protection low stage DPHLPDOC 67 51P 2 2 2 19 Three phase directional overcurrent protection high stage DPHHPDOC 67 50P 1 2 1 19 1 2 ...

Page 10: ...ction 1 EFPADM 21YN 3 1 4 9 3 1 4 11 3 1 4 9 Wattmetric based earth fault protection 1 WPWDE 32N 3 1 4 9 3 1 4 11 3 1 4 9 Transient intermittent earth fault protection INTRPTEF 67NIEF 1 9 15 1 11 15 1 9 15 19 Harmonics based earth fault protection 1 HAEFPTOC 51NHA 1 1 15 19 1 1 15 19 1 1 15 19 1 1 15 19 Negative sequence overcurrent protection NSPTOC 46 1 1 1 1 1 Phase discontinuity protection PDN...

Page 11: ...ugh protection LVRTPTUV 27RT 3 19 3 19 Voltage vector shift protection VVSPPAM 78V 1 19 1 19 Power quality Current total demand distortion CMHAI PQI 1 17 19 1 17 19 1 17 19 Voltage total harmonic distortion VMHAI PQVPH 1 17 19 1 17 19 1 17 19 B1 1 17 19 B2 Voltage variation PHQVVR PQSS 1 17 19 1 17 19 1 17 19 B1 1 17 19 B2 Voltage unbalance VSQVUB PQVUB 1 17 19 1 17 19 1 17 19 Control Circuit brea...

Page 12: ...XRGGIO130 X130 RTD 1 1 1 Frequency measurement FMMXU f 1 1 1 1 IEC 61850 9 2 LE sampled value sending 23 26 SMVSENDER SMVSENDER 1 1 1 1 IEC 61850 9 2 LE sampled value receiving voltage sharing 23 26 SMVRCV SMVRECEIVER 1 1 1 1 Other Minimum pulse timer 2 pcs TPGAPC 62TP 2 2 19 3 1 19 3 1 19 2 2 19 2 2 19 Minimum pulse timer 2 pcs second resolution TPSGAPC 62TPS 1 19 1 19 1 19 1 19 1 19 Minimum puls...

Page 13: ...n and Voltage variation 18 Available in IED and SMT but not connected to anything in logic 19 Must be added with ACT to be available in SMT and in IED 20 Uob measured is always used for unbalance protection with unearthed single Y connected capacitor bank 21 The Iunb measurements values will be taken from this block and put in Measurent view 22 Master Trip included and connected to corresponding H...

Page 14: ...providing selective directional earth fault protection for high impedance grounded net works The operation is based on multifrequency neutral admittance measurement utilizing funda mental frequency and harmonic components in Uo and Io A special filtering algorithm enables de pendable and secure fault direction also during in termittent restriking earth faults It provides a very good combination of...

Page 15: ...ple current sensors do not saturate at high currents they consume less energy and they weigh less In voltage sensors the risk of ferro resonance is elimi nated The sensor inputs also enable the use of the relay in compact medium voltage switchgears such as ABB s ReliaGear ND Digital Advance Digital and SafeGear Digital eliminating the need of ded icated PT compartments Further the adapters also en...

Page 16: ...ault protection Admit tance and wattmetric based earth fault protec tion functions are available for standard configura tions L and N Harmonics based earth fault protection is available for standard configurations D F L and N The admittance based earth fault protection ensures a correct operation of the pro tection even though the connection status informa tion of the Petersen coil is missing The ...

Page 17: ...ency based protection is used with standard configuration F The relays are equipped with op tional arc protection function enabling fast and se lective arc protection throughout the switchgear Additionally for the feeder with overhead line the optional autoreclosing function is used 3 52 3 52 Δ Y 52 Υ or Δ 3 REF615 Conf D 51P 50P 50BF 51G 50G AFD 3 REF615 Conf F 51P 50P 50BF 67G 51G 50G 49F AFD RE...

Page 18: ... dard configurations with overcurrent ground fault and thermal protection for the outgoing feeder ca bles The relays are equipped with optional arc pro tection function enabling fast and selective arc protection throughout the switchgear Additionally the optional fault locator function is used in stan dard configuration N for the calculation of fault dis tance from the substation 3 52 3 52 Δ Y 52 ...

Page 19: ...or the implementation of automatic transfer schemes in mains and tie relays 52 52 Δ Y 52 REF615 Conf L 67P 51P 50P 50BF 67G 51G 50G 27 27R via IEC 61850 9 2LE 25 via IEC 61850 9 2LE AFD REF615 Conf L 51P 50P 50BF 67 51G 50G AFD REF615 Conf F 51P 50P 50BF 67 51G 50G AFD 52 52 Δ Y 52 REF615 Conf L 67P 51P 50P 50BF 67G 51G 50G 27 27R via IEC 61850 9 2LE 25 via IEC 61850 9 2LE AFD REF615 Conf L 51P 50...

Page 20: ...d in standard configuration N in the incoming feed ers and configuration P in the tie breaker Standard configuration P has 6 voltage inputs to be able to monitor decaying voltage in the buses for the im plementation of Automatic Transfer Schemes 3 52 3 52 Δ Y 52 Υ or Δ Υ or Δ 3 REF615 Conf N 67P 51P 50P 50BF 67G 51G 50G 27 27R 25 AFD 3 3 REF615 Conf F 51P 50P 50BF 67 51G 50G AFD REF615 Conf F 51P ...

Page 21: ...erhead line The relays are equipped with optional arc protec tion function enabling fast and selective arc pro tection throughout the switchgear Standard con figuration P in the tie breaker is used for the implementation of automatic transfer schemes 3 52 3 52 Δ Y 52 Υ or Δ Υ or Δ 3 REF615 Conf N 67P 51P 50P 50BF 67G 51G 50G 27 27R 25 AFD 3 3 REF615 Conf N 51P 50P 50BF 67 51G 50G 49F AFD REF615 Co...

Page 22: ...ontrol of the point of close coupling between the utility and distributed generation with standard configura tion N 3 52 52 Δ Y 52 Υ or Δ 3 REF615 Conf N 51P 50P 50BF 51G 50G 32 27 59 81 25 AFD 3 REF615 Conf F 51P 50P 50BF 67G 51G 50G 49F AFD Cable G 3 3 Υ or Δ Δ V0a REG615 Conf C 27 32R 32O 32U 40 49M 47 47U 51P 50P 59 60 67 51G 50G 81 Υ or Δ 3 Utility 1 Distributed Resource ...

Page 23: ... 3 52 3 52 Δ Y 52 Υ or Δ Υ or Δ 3 REF615 Conf N 67P 51P 50P 50BF 67G 51G 50G 27 27R 25 AFD 3 3 REF615 Conf N 51P 50P 50BF 67 51G 50G 49F AFD REF615 Conf N 51P 50P 50BF 67 51G 50G 79 AFD 3 52 3 52 Δ Y 52 Υ or Δ Υ or Δ 3 3 REF615 Conf N 51P 50P 50BF 67 51G 50G 49F AFD REF615 Conf N 51P 50P 50BF 67 51G 50G 79 AFD 52 3 REF615 Conf P 67P 51P 50P 50BF 67N 51N 50N 27 27R 25 AFD 1 1 3 3 Cable Overhead lin...

Page 24: ...l functionality COM600F features a Web browser based HMI which provides a customizable graphical display for visualizing single line mimic diagrams for switchgear bay solutions The SLD feature is especially useful when 615 series relays without the optional single line diagram feature are used The Web HMI of COM600F also provides an overview of the whole substation including re lay specific single...

Page 25: ... O module can be used for the less time crit ical binary signals of the application The integra tion enables releasing of some initially reserved binary inputs and outputs of the relay in the stan dard configuration The suitability of the relay s binary outputs which have been selected for controlling of primary de vices should be carefully verified for example the make and carry as well as the br...

Page 26: ...elay has the following power qual ity monitoring functions Voltage variation Voltage unbalance Current harmonics Voltage harmonics The voltage unbalance and voltage variation func tions are used for measuring short duration volt age variations and monitoring voltage unbalance conditions in power transmission and distribution networks The voltage and current harmonics functions pro vide a method fo...

Page 27: ...the non volatile memory 13 Condition monitoring The condition monitoring functions of the relay constantly monitor the performance and the condi tion of the circuit breaker The monitoring com prises the spring charging time SF6 gas pressure the travel time and the inactivity time of the circuit breaker The monitoring functions provide operational cir cuit breaker history data which can be used for...

Page 28: ...n the standard configuration selected the relay is equipped with three phase current in puts and one residualcurrent input for non direc tional earth fault protection or three phase cur rent inputs one residual current input and one residual voltage input for directional earth fault protection or three phase current inputs one re sidual current input three phase voltage inputs and one residual vol...

Page 29: ... RTD mA D AC AD AF 4 18 4 PO 9 SO FB 4 18 4 PO 5 SO 3 HSO FC FD AD 4 12 4 PO 6 SO 2 FE 4 12 4 PO 2 SO 3 HSO 6 F N AE AF AG 4 5 16 4 PO 6 SO FC 4 5 16 4 PO 2 SO 3 HSO FE FF AG 4 5 12 4 PO 6 SO 2 1 FC 4 5 12 4 PO 2 SO 3 HSO 2 1 L DA AH 1 3 8 4 PO 6 SO FD 1 3 8 4 PO 2 SO 3 HSO P AK AK 4 6 15 4 PO 6 SO FH 4 6 15 4 PO 2 SO 3 HSO ...

Page 30: ...when controlling parallel running transform ers The relay also supports IEC 61850 process bus by sending sampled values of analog currents and voltages and by receiving sampled values of volt ages With this functionality the galvanic interpanel wiring can be replaced with Ethernet communica tion The measured values are transferred as sam pled values using IEC 61850 9 2 LE protocol The in tended ap...

Page 31: ...ves from one port to another to reach the next node When the originating sender node receives the frame it sent the sender node discards the frame to avoid loops The HSR ring with 615 series relays supports the connection of up to 30 relays If more than 30 relays are to be connected it is recom mended to split the network into several rings to guarantee the performance for real time applica tions ...

Page 32: ...in case of a communication switch over The relays in the ring topology act as unmanaged switches for warding unrelated data traffic The Ethernet ring solution supports the connection of up to 30 615 series relays If more than 30 relays are to be con nected it is recommended to split the network into several rings The self healing Ethernet ring solu tion avoids single point of failure concerns and ...

Page 33: ...and Modbus TCP can be used in parallel and if re quired both IEC 61850 and Modbus protocols can be run simultaneously DNP3 supports both serial and TCP modes for con nection up to five masters Changing of the active setting and reading fault records are supported DNP serial and DNP TCP can be used in parallel If required both IEC 61850 and DNP protocols can be run simultaneously When the relay use...

Page 34: ...er delay calculation Multicast operation Required accuracy of grandmaster clock is 1 μs The relay can work as a master clock per BMC algo rithm if the external grandmaster clock is not avail able for short term The IEEE 1588 support is included in all variants having a redundant Ethernet communication mod ule In addition the relay supports time synchroniza tion via Modbus and DNP3 serial communica...

Page 35: ...able 6 Dimensions Table 7 Power supply Table 8 Energizing inputs Description Value Rated frequency 50 60 Hz 5 Hz Current inputs Rated current In 0 2 1 A1 1 5 A2 Thermal withstand capability Continuously For 1 s 4 A 100 A 20 A 500 A Dynamic current withstand Half wave value 250 A 1250 A Input impedance 100 mΩ 20 mΩ Voltage input Rated voltage 60 210 V AC Voltage withstand Continuous For 10 s 240 V ...

Page 36: ... time 4 s RTD resistance sensing current Maximum 0 33 mA rms Operation accuracy Resistance Temperature 2 0 or 1 Ω 1 C 10 Ω copper 2 C mA inputs Supported current range 0 20 mA Current input impedance 44 Ω 0 1 Operation accuracy 0 5 or 0 01 mA Table 12 Signal output X100 SO1 Table 13 Signal outputs and IRF output Description Value Rated voltage 250 V AC DC Continuous contact carry 5 A Make and carr...

Page 37: ...L R 40 ms at 48 110 220 V DC 5 A 3 A 1 A Minimum contact load 100 mA at 24 V AC DC Description Value Rated voltage 250 V AC DC Continuous contact carry 6 A Make and carry for 3 0 s 15 A Make and carry for 0 5 s 30 A Breaking capacity when the control circuit time constant L R 40 ms at 48 110 220 V DC 5 A 3 A 1 A Operate time 1 ms Reset 20 ms resistive load Table 17 Front port Ethernet interfaces T...

Page 38: ...5ºC continuous Short time service temperature range 40 85ºC 16h 1 2 Relative humidity 93 non condensing Atmospheric pressure 86 106 kPa Altitude Up to 2000 m Transport and storage temperature range 40 85ºC Description Type test value Reference 1 MHz 100 kHz burst disturbance test Common mode Differential mode 2 5 kV 2 5 kV IEC 61000 4 18 IEC 60255 26 class III IEEE C37 90 1 2002 3 MHz 10 MHz and 3...

Page 39: ...latory magnetic field immunity test 2 s 1 MHz 100 A m 400 transients s IEC 61000 4 10 Voltage dips and short interruptions 30 10 ms 60 100 ms 60 1000 ms 95 5000 ms IEC 61000 4 11 Power frequency immunity test Common mode Differential mode Binary inputs only 300 V rms 150 V rms IEC 61000 4 16 IEC 60255 26 class A Conducted common mode disturbances 15 Hz 150 kHz Test level 3 10 1 10 V rms IEC 61000 ...

Page 40: ...mp heat test 6 cycles 12 h 12 h at 25 C 55 C humidity 93 IEEE C37 90 2005 IEC 60068 2 30 Change of temperature test 5 cycles 3 h 3 h at 25 C 55 C IEEE C37 90 2005 IEC60068 2 14 Storage test 96 h at 40ºC 96 h at 85ºC IEEE C37 90 2005 IEC 60068 2 1 IEC 60068 2 2 Description Type test value Reference Vibration tests sinusoidal IEC 60068 2 6 test Fc IEC 60255 21 1 Class 2 Shock and bump test IEC 60068...

Page 41: ...dB at f n x fn where n 2 3 4 5 Peak to Peak No suppression P to P backup No suppression 1 Set Operate delay time 0 02 s Operate curve type IEC definite time Measurement mode default dpends on stage current before fault 0 0 In fn 50 Hz fault current in one phase with nominal frequency injected from random phase angle results based on statistical distribution of 1000 measurements 2 Includes the dela...

Page 42: ...1 Measurement mode and Pol quantity default current before fault 0 0 In voltage before fault 1 0 Un fn 50 Hz fault current in one phase with nominal frequency injected from random phase angle results based on statistical distribution of 1000 measurements 2 Includes the delay of the signal output contact 3 Maximum Start value 2 5 In Start value multiples in range of 1 5 20 1 For further reference s...

Page 43: ...onics RMS No suppression DFT 50dB at f n x fn where n 2 3 4 5 Peak to Peak No suppression 1 Measurement mode default depends on stage current before fault 0 0 In fn 50 Hz earth fault current with nominal frequency injected from random phase angle results based on statistical distribution of 1000 measurements 2 Includes the delay of the signal output contact 3 Maximum Start value 2 5 In Start value...

Page 44: ... delay time 0 06 s Operate curve type IEC definite time Measurement mode default depends on stage current before fault 0 0 In fn 50 Hz earth fault current with nominal frequency injected from random phase angle results based on statistical distribution of 1000 measurements 2 Includes the delay of the signal output contact 3 Maximum Start value 2 5 In Start value multiples in range of 1 5 20 1 For ...

Page 45: ...EFPADM 500 00 500 00 mS 0 01 Conductance forward EFPADM 500 00 500 00 mS 0 01 Conductance reverse EFPADM 500 00 500 00 mS 0 01 Susceptance forward EFPADM 500 00 500 00 mS 0 01 Susceptance reverse EFPADM 500 00 500 00 mS 0 01 Conductance tilt Ang EFPADM 30 30 1 Susceptance tilt Ang EFPADM 30 30 1 Table 40 Wattmetric based earth fault protection WPWDE Characteristic Value Operation accuracy Dependin...

Page 46: ...e 43 Transient intermittent earth fault protection INTRPTEF main settings Parameter Function Value range Step Directional mode INTRPTEF 1 Non directional 2 Forward 3 Reverse Operate delay time INTRPTEF 40 1200000 ms 10 Voltage start value INTRPTEF 0 05 0 50 Un 0 01 Operation mode INTRPTEF 1 Intermittent EF 2 Transient EF Peak counter limit INTRPTEF 2 20 1 Min operate current INTRPTEF 0 01 1 00 In ...

Page 47: ...ssion of harmonics DFT 50dB at f n x fn where n 2 3 4 5 1 Negative sequence current before fault 0 0 fn 50 Hz results based on statistical distribution of 1000 measurements 2 Includes the delay of the signal output contact 3 Maximum Start value 2 5 In Start value multiples in range of 1 5 20 1 For further reference see the Operation characteristics table Table 47 Negative sequence overcurrent prot...

Page 48: ...r 20 ms Suppression of harmonics DFT 50dB at f n x fn where n 2 3 4 5 1 Residual voltage before fault 0 0 Un fn 50 Hz residual voltage with nominal frequency injected from random phase angle results based on statistical distribution of 1000 measurements 2 Includes the delay of the signal output contact Table 52 Residual overvoltage protection ROVPTOV main settings Parameter Function Value range St...

Page 49: ...HPTOV 40 300000 ms 10 Operating curve type1 PHPTOV Definite or inverse time Curve type 5 15 17 18 19 20 1 For further reference see the Operation characteristics table Table 54 Three phase undervoltage protection PHPTUV main settings Parameter Function Value range Step Start value PHPTUV 0 05 1 20 Un 0 01 Time multiplier PHPTUV 0 05 15 00 0 01 Operate delay time PHPTUV 60 300000 ms 10 Operating cu...

Page 50: ...ion accuracy f f 5 mHz df dt 50 mHz s in range df dt 5 Hz s 2 0 of the set value in range 5 Hz s df dt 15 Hz s Start time 1 2 f f 80 ms df dt 120 ms Reset time 150 ms Operate time accuracy 1 0 of the set value or 30 ms Table 58 Positive sequence undervoltage protection PSPTUV main settings Parameter Function Value range Step Start value PSPTUV 0 010 1 200 Un 0 001 Operate delay time PSPTUV 40 1200...

Page 51: ...nite time mode 1 0 of the set value or 20 ms 1 Measurement mode default depends on stage current before fault 0 0 In fn 50 Hz fault current with nominal frequency injected from random phase angle results based on statistical distribution of 1000 measurements 2 Includes the delay of the signal output contact Table 63 Three phase thermal protection for feeders cables and distribution transformers T1...

Page 52: ...ment 5 0 of the set value Reset time 35 ms 0 ms Reset ratio Typically 0 96 Operate time accuracy 35 ms 0 ms Table 66 High impedance differential protection HIxPDIF main settings Parameter Function Value range Step Operate value HREFPDIF 1 0 50 0 In 0 1 Minimum operate time HREFPDIF 40 300000 ms 1 Table 67 Circuit breaker failure protection CCBRBRF Characteristic Value Operation accuracy Depending ...

Page 53: ... ARCSARC main settings Table 76 Multipurpose protection MAPGAPC main settings Parameter Function Value range Step Phase start value ARCSARC 0 50 40 00 In 0 01 Ground start value ARCSARC 0 05 8 00 In 0 01 Operation mode ARCSARC 1 Light current 2 Light only 3 BI controlled Parameter Function Value range Step Start value MAPGAPC 10000 0 10000 0 0 1 Operate delay time MAPGAPC 0 200000 ms 100 Operation...

Page 54: ...eset time Typically 30 ms Reset ratio Typically 0 94 Operate time accuracy 1 0 of the set value of 20 ms Suppression of harmonics 50 dB at f n fn where n 2 3 4 5 1 Measurement mode Pos Seq default 2 U Un fn 50 Hz results based on statistical distribution of 1000 measurements 3 Includes the delay of the signal output contact Table 81 Reverse power directional overpower protection DOPPDPR main setti...

Page 55: ... Mod inv 5 ANSI Def Time 6 L T E inv 7 L T V inv 8 L T inv 9 IEC Norm inv 10 IEC Very inv 11 IEC inv 12 IEC Ext inv 13 IEC S T inv 14 IEC L T inv 15 IEC Def Time 17 Programmable 18 RI type 19 RD type Operating curve type voltage protection 5 ANSI Def Time 15 IEC Def Time 17 Inv Curve A 18 Inv Curve B 19 Inv Curve C 20 Programmable 21 Inv Curve A 22 Inv Curve B 23 Programmable Table 83 Multifrequen...

Page 56: ...ut contact Table 87 Directional reactive power undervoltage protection DQPTUV main settings Parameter Function Value range Step Voltage start value DQPTUV 0 20 1 20 Un 0 01 Operate delay time DQPTUV 100 300000 ms 10 Min reactive power DQPTUV 0 01 0 50 Sn 0 01 Min Ps Seq current DQPTUV 0 02 0 20 In 0 01 Pwr sector reduction DQPTUV 0 10 1 Table 88 Low voltage ride through protection LVRTPTUV Charact...

Page 57: ...UV 0 00 1 20 ms 0 01 Recovery time 1 LVRTPTUV 0 300000 ms 1 Recovery time 2 LVRTPTUV 0 300000 ms 1 Recovery time 3 LVRTPTUV 0 300000 ms 1 Recovery time 4 LVRTPTUV 0 300000 ms 1 Recovery time 5 LVRTPTUV 0 300000 ms 1 Recovery time 6 LVRTPTUV 0 300000 ms 1 Recovery time 7 LVRTPTUV 0 300000 ms 1 Recovery time 8 LVRTPTUV 0 300000 ms 1 Recovery time 9 LVRTPTUV 0 300000 ms 1 Recovery time 10 LVRTPTUV 0 ...

Page 58: ... variation PHQVVR Table 93 Voltage unbalance VSQVUB Characteristic Value Operation accuracy 1 5 of the set value or 0 2 of reference voltage Reset ratio Typically 0 96 Swell 1 04 Dip Interruption Characteristic Value Operation accuracy 1 5 of the set value or 0 002 Un Reset ratio Typically 0 96 ...

Page 59: ...tion Value range Step Live dead mode SECRSYN 1 Off 1 Both Dead 2 Live L Dead B 3 Dead L Live B 4 Dead Bus L Any 5 Dead L Bus Any 6 One Live Dead 7 Not Both Live Difference voltage SECRSYN 0 01 0 50 Un 0 01 Difference frequency SECRSYN 0 001 0 100 fn 0 001 Difference angle SECRSYN 5 90 1 Synchrocheck mode SECRSYN 1 Off 2 Synchronous 3 Asynchronous Dead line value SECRSYN 0 1 0 8 Un 0 1 Live line va...

Page 60: ...Function Value range Step Start value CCSPVC 0 05 0 20 In 0 01 Max operate current CCSPVC 1 00 5 00 In 0 01 Table 100 Current transformer supervision for high impedance protection scheme HZCCxSPVC Characteristic Value Operation accuracy Depending on the frequency of the current measured fn 2 Hz 1 5 of the set value or 0 002 In Reset time 40 ms Reset ratio Typically 0 96 Retardation time 35 ms Oper...

Page 61: ... ΔU 2 0 set Voltage change rate 33 ms 24 ms 1 Includes the delay of the signal output contact fn 50 Hz fault voltage with nominal frequency injected from random phase angle results based on statistical distribution of 1000 measurements Table 103 Runtime counter for machines and devices MDSOPT Description Value Motor runtime measurement accuracy 1 0 5 1 Of the reading for a stand alone relay withou...

Page 62: ...1 4 00 In Suppression of harmonics DFT 50 dB at f n fn where n 2 3 4 5 Characteristic Value Operation accuracy Depending on the frequency of the current measured f fn 2 Hz 0 5 or 0 002 In at currents in the range of 0 01 4 00 In Suppression of harmonics DFT 50 dB at f n fn where n 2 3 4 5 RMS No suppression Characteristic Value Operation accuracy Depending on the frequency of the voltage measured ...

Page 63: ...arameter Value range RTD inputs Supported RTD sensors 100 Ω platinum 250 Ω platinum 100 Ω nickel 120 Ω nickel 250 Ω nickel 10 Ω copper TCR 0 00385 DIN 43760 TCR 0 00385 TCR 0 00618 DIN 43760 TCR 0 00618 TCR 0 00618 TCR 0 00427 Supported resistance range 0 2 kΩ Maximum lead resistance threewire measurement 25 Ω per lead Isolation 2 kV inputs to protective earth Response time 4 s RTD resistance sens...

Page 64: ...C Table 114 Time delay off 8 pcs TOFPAGC Table 115 Time delay on 8 pcs TONGAPC Characteristic Value Operate time accuracy 1 0 of the set value or 20 ms Characteristic Value Operate time accuracy 1 0 of the set value or 20 ms Characteristic Value Operate time accuracy 1 0 of the set value or 20 ms ...

Page 65: ...ngle line diagram The SLD view can also be accessed using the Web browser based user interface The default SLD can be modified according to user require ments by using the Graphical Display Editor in PCM600 The user can create up to 10 SLD pages The local HMI includes a push button L R for lo cal remote operation of the relay When the relay is in the local mode it can be operated only by using the...

Page 66: ...es intended for voltage mea suring relay units 24 Selection and ordering data Use ABB Library to access the selection and order ing information and to generate the order number Product Selection Tool PST a Next Generation Order Number Tool supports order code creation for ABB Distribution Automation IEC products with emphasis on but not exclusively for the Relion product family PST is an easy to u...

Page 67: ...534 10 Optical sensor for arc protection cable length 15 0 m 1MRS120534 15 Optical sensor for arc protection cable length 20 0 m 1MRS120534 20 Optical sensor for arc protection cable length 25 0 m 1MRS120534 25 Optical sensor for arc protection cable length 30 0 m 1MRS120534 30 Item Order number Semi flush mounting kit 1MRS050696 Wall mounting kit 1MRS050697 Inclined semi flush mounting kit 1MRS05...

Page 68: ...bled by default but it can be en abled via the local HMI The Web HMI functionality can be limited to read only access The relay connectivity package is a collection of software and specific relay information which en ables system products and tools to connect and in teract with the protection relay The connectivity packages reduce the risk of errors in system inte gration minimizing device configu...

Page 69: ... ing to the required system setup 69 Table 118 Supported functions Function Web HMI PCM600 Relay parameter setting Saving of relay parameter settings in the relay Signal monitoring Disturbance recorder handling Alarm LED viewing Access control management Relay signal configuration Signal Matrix Modbus communication configuration communication management DNP3 communication configuration communicati...

Page 70: ...28 Terminal diagrams 70 REF615 ANSI 5 0 FP1 FEEDER PROTECTION AND CONTROL Figure 22 Terminal diagram of standard configuration D ...

Page 71: ...71 Figure 23 Terminal diagram of standard configuration F ...

Page 72: ...72 REF615 ANSI 5 0 FP1 FEEDER PROTECTION AND CONTROL Figure 24 Terminal diagram of standard configuration L ...

Page 73: ...73 Figure 25 Terminal diagram of standard configuration N The protection relay features an automatic mechanism in the CT connector when plug in unit is detached ...

Page 74: ...rt circuit mechanism in the CT connector when plug in unit is detached 2 Order selectable Optional X130 1 2 3 9 4 5 6 10 7 8 11 12 13 14 15 16 17 18 BI 1 BI 2 BI 3 VC 2 VB 2 VA 2 VC 1 VA 1 VB 1 X110 16 14 15 19 17 18 22 20 21 SO3 SO2 24 23 SO4 2 X110 1 2 4 3 2 5 6 7 8 9 10 12 13 11 BI 1 BI 2 BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 SO1 X110 1 2 4 3 2 5 6 7 8 9 10 12 13 11 BI 1 BI 2 BI 3 BI 4 BI 5 BI 6 BI 7 B...

Page 75: ...ls with REF615 and REF630 Feeder Protection and Control IEDs based on IEC 62271 3 Report number 70972064 TDT 09 1398 The Inspection report con cludes in its summary apart from the performance comparisons that both the REF630 and REF615 comply to the performance class P1 message type 1A Trip for distribution bays transfer time 10 msec as defined in IEC 61850 5 31 References The www abb com substati...

Page 76: ...EFIPTOC1 50N 51N 1 Directional earth fault protection low stage DEFLPDEF1 67N 1 1 DEFLPDEF2 67N 1 2 Directional earth fault protection high stage DEFHPDEF1 67N 2 1 Admittance based earth fault protection EFPADM1 21YN 1 EFPADM2 21YN 2 EFPADM3 21YN 3 Wattmetric based earth fault protection WPWDE1 32N 1 WPWDE2 32N 2 WPWDE3 32N 3 Transient intermittent earth fault protection INTRPTEF1 67NIEF 1 Harmoni...

Page 77: ...NBF 1 Three phase inrush detector INRPHAR1 68 1 Switch onto fault CBPSOF1 SOTF 1 Master trip TRPPTRC1 94 86 1 TRPPTRC2 94 86 2 TRPPTRC3 94 86 3 TRPPTRC4 94 86 4 TRPPTRC5 94 86 5 Arc protection ARCSARC1 50L 50NL 1 ARCSARC2 50L 50NL 2 ARCSARC3 50L 50NL 3 Multipurpose protection MAPGAPC1 MAP 1 MAPGAPC2 MAP 2 MAPGAPC3 MAP 3 MAPGAPC4 MAP 4 MAPGAPC5 MAP 5 MAPGAPC6 MAP 6 MAPGAPC7 MAP 7 MAPGAPC8 MAP 8 MAP...

Page 78: ...it breaker condition monitoring SSCBR1 CBCM 1 Trip circuit supervision TCSSCBR1 TCM 1 TCSSCBR2 TCM 2 Current circuit supervision CCSPVC1 MCS 3I 1 Current transformer supervision for high impedance protection scheme for phase A HZCCASPVC1 MCS I_A 1 Current transformer supervision for high impedance protection scheme for phase B HZCCBSPVC1 MCS I_B 1 Current transformer supervision for high impedance...

Page 79: ...FGAPC2 TOF 2 TOFGAPC3 TOF 3 TOFGAPC4 TOF 4 Time delay on 8 pcs TONGAPC1 TON 1 TONGAPC2 TON 2 TONGAPC3 TON 3 TONGAPC4 TON 4 Set reset 8 pcs SRGAPC1 SR 1 SRGAPC2 SR 2 SRGAPC3 SR 3 SRGAPC4 SR 4 Move 8 pcs MVGAPC1 MV 1 MVGAPC2 MV 2 Generic control point 16 pcs SPCGAPC1 SPC 1 SPCGAPC2 SPC 2 Analog value scaling SCA4GAPC1 SCA4 1 SCA4GAPC2 SCA4 2 SCA4GAPC3 SCA4 3 SCA4GAPC4 SCA4 4 Integer value move MVI4G...

Page 80: ...ge Drive Coral Springs Florida 33065 Phone 1 954 752 6700 abb com mediumvoltage abb com substationautomation 1MAC103085 PG REV B SEPT 2018 Copyright 2017 ABB All rights reserved Specifications subject to change without notice ...